J I Glendinning

Overview

Explore the profile of J I Glendinning including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 15

Citations 352

Followers 0

Related Specialties

Physiology

Social Sciences

Biology

Top 10 Co-Authors

E Long

P WEISKOPF

T T Hills

A Davis

N M Nelson

B N Timmermann

S Cheng

S Valcic

H N Spain

F Beltran

Published In

J Exp Biol

Physiol Behav

J Comp Physiol A

J Neurosci

Science

Affiliations

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Recent Articles

Effectiveness of cardenolides as feeding deterrents toPeromyscus mice

Glendinning J

J Chem Ecol . 2013 Nov; 18(9):1559-75. PMID: 24254287

I compared the feeding responses of five species ofPeromyscus mice (aztecus, polionotus, melanotis, leucopus, andmaniculatus) to three bitter-tasting cardenolides (ouabain, digoxin, and digitoxin) that differ greatly in lipophilic character.Peromyscus, like...

Taste does not determine daily intake of dilute sugar solutions in mice

Glendinning J, Beltran F, Benton L, Cheng S, Gieseke J, GILLMAN J, et al.

Am J Physiol Regul Integr Comp Physiol . 2010 Aug; 299(5):R1333-41. PMID: 20702804

When a rodent licks a sweet-tasting solution, taste circuits in the central nervous system that facilitate stimulus identification, motivate intake, and prepare the body for digestion are activated. Here, we...

Selective adaptation to noxious foods by a herbivorous insect

Glendinning J, Domdom S, Long E

J Exp Biol . 2001 Oct; 204(Pt 19):3355-67. PMID: 11606609

When animals repeatedly sample a noxious food over a period of 1-4 days, they can markedly reduce their aversive behavioral response to the diet's unpleasant taste (e.g. 'bitterness') or toxic...

A peripheral mechanism for behavioral adaptation to specific "bitter" taste stimuli in an insect

Glendinning J, Brown H, Capoor M, Davis A, Gbedemah A, Long E

J Neurosci . 2001 May; 21(10):3688-96. PMID: 11331398

Animals have evolved several chemosensory systems for detecting potentially dangerous foods in the environment. Activation of specific sensory cells within these chemosensory systems usually elicits an aversive behavioral response, leading...

How do inositol and glucose modulate feeding in Manduca sexta caterpillars?

Glendinning J, Nelson N, Bernays E

J Exp Biol . 2000 Mar; 203(Pt 8):1299-315. PMID: 10729279

Many species of caterpillar possess taste cells that respond exceptionally vigorously to the sugar alcohol myo-inositol. We examined the functional significance of these inositol-sensitive taste cells in Manduca sexta caterpillars...

Contribution of different bitter-sensitive taste cells to feeding inhibition in a caterpillar (Manduca sexta)

Glendinning J, Tarre M, Asaoka K

Behav Neurosci . 1999 Sep; 113(4):840-54. PMID: 10495092

Many compounds that taste bitter to humans also inhibit feeding in insects. Caterpillars (e.g., Manduca sexta) detect these compounds with a few bitter-sensitive taste cells. This study examined the role...

Diet-induced plasticity in the taste system of an insect: localization to a single transduction pathway in an identified taste cell

Glendinning J, Ensslen S, Eisenberg M, WEISKOPF P

J Exp Biol . 1999 Jul; 202(Pt 15):2091-102. PMID: 10393824

We studied exposure-induced sensitivity changes in an identified taste cell from Manduca sexta, a herbivorous caterpillar. This taste cell occurs within the lateral styloconic sensillum and responds selectively to compounds...

Maxillary palps can mediate taste rejection of plant allelochemicals by caterpillars

Glendinning J, Valcic S, Timmermann B

J Comp Physiol A . 1998 Aug; 183(1):35-43. PMID: 9691479

All caterpillars possess a pair of maxillary palps that "drum" the surface of foods during feeding. These chemosensory organs contain over 65% of a caterpillar's taste receptor cells, but their...

Electrophysiological evidence for two transduction pathways within a bitter-sensitive taste receptor

Glendinning J, Hills T

J Neurophysiol . 1997 Aug; 78(2):734-45. PMID: 9307108

Among the sapid stimuli, those that elicit bitter taste are the most abundant and structurally diverse. To accommodate this diversity, animals are thought to use multiple bitter transduction pathways. We...

10.

Causal connection between detoxification enzyme activity and consumption of a toxic plant compound

Snyder M, Glendinning J

J Comp Physiol A . 1996 Aug; 179(2):255-61. PMID: 8765561

Insect herbivores can increase their detoxification activities against a particular plant poison in response to prolonged ingestion of the same compound. For example, larval tobacco hornworms (Manduca sexta) experience a...